Add to ORKGThe study of pair-wise interactions between swimming microorganisms is fundamental to the understanding of the rheological and transport properties of semi-dilute suspensions. In this paper, the hydrodynamic interaction of two ciliated microorganisms is investigated numerically using a boundary-element method, and the microorganisms are modeled as spherical squirmers that swim by time-dependent surface deformations. The results show that the inclusion of the unsteady terms in the ciliary propulsion model has a large impact on the trajectories of the interacting cells, and causes a significant change in scattering angles with potential important consequences on the diffusion properties of semi-dilute suspensions. Furthermore, the analysis of...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
We present a theoretical study of the behaviour of two active particles under the action of harmonic...
Considering the abundance of viscoelastic fluids in nature, growing attention has been received for ...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
A general Boundary Element Method is presented and benchmarked with existing Slender Body Theory res...
In this dissertation, the effects of elasticity on hydrodynamic interactions at small scales are inv...
Hydrodynamic interaction between swimming organisms has long been a topic of interest in fluid-struc...
In this study, we consider suspensions of swimming microorganisms in situations where we might expec...
The swimming behavior of self-propelled microorganisms is studied by particle-based mesoscale simula...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Abstract. We present two-dimensional simulations of chemotactic self-propelled bacteria swim-ming in...
Interactions between microorganisms and solid boundaries play an important role in biological proces...
We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
We present a theoretical study of the behaviour of two active particles under the action of harmonic...
Considering the abundance of viscoelastic fluids in nature, growing attention has been received for ...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
A general Boundary Element Method is presented and benchmarked with existing Slender Body Theory res...
In this dissertation, the effects of elasticity on hydrodynamic interactions at small scales are inv...
Hydrodynamic interaction between swimming organisms has long been a topic of interest in fluid-struc...
In this study, we consider suspensions of swimming microorganisms in situations where we might expec...
The swimming behavior of self-propelled microorganisms is studied by particle-based mesoscale simula...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Abstract. We present two-dimensional simulations of chemotactic self-propelled bacteria swim-ming in...
Interactions between microorganisms and solid boundaries play an important role in biological proces...
We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
We present a theoretical study of the behaviour of two active particles under the action of harmonic...
Considering the abundance of viscoelastic fluids in nature, growing attention has been received for ...